M-1 motorcycle helmet with LED light system 4 safety

ABSTRACT

A safety helmet with molded and imbedded LED in its shell, designed and arranged in a manner to provide visual recognition and/or identification of the wearer in an unsafe, hazardous or hostile environment. The helmet is intended for recreational (i.e., cyclist, hikers, cave explorers, etc), professional (i.e., firefighters, special police operations, underground infrastructure tasks, etc.) and military operations. The LED safety lighting system may be powered by either AA, AAA, LR2032, 9-Volt, or any other electrochemical device, i.e., dry cell or lithium-ion battery combination, mounted within or without the helmet shell; and may be manually and/or automatically activated.

FIELD OF INVENTIONS

This invention pertains to a lighting system to be molded into the shell of a safety helmet to facilitate the immediate recognition and/.or identification of the wearer.

BACKGROUND OF THE INVENTION

Prior art include safety lights mounted of parts of a user's body, including head coverings such as U.S. Pat. No. 4,945,458. The device and object in this invention presents and illustrates a safety helmet containing a lighting device in its shell which lights up automatically or on command by pressing the on/off switch. A copper trace/lead trace board is attached that receives an electrical current from two 1.5 volt double A batteries found in the battery holder.

SUMMARY OF THE INVENTION

This invention provides a fire wire/LED (light emitting diodes) wherein an electrical current is sent throughout a copper trace/lead trace circuit board printed helmet shell from a nine volt pull tab battery holder that house two 1.5 volt double A batteries.

BRIEF DESCRIPTION OF THE DRAWING

FIG. 1A—is an out perspective view of the helmet shell where LED light arrangements are embedded inside of the helmet shell.

FIG. 1B—is an outer perspective view of the back of the helmet shell where LED lights are embedded.

FIG. 1C—is an outer perspective view of the front of the helmet shell where LED lights are embedded inside of the helmet shell.

FIG. 1D—is an inside perspective view of the inner shell where electronic competence are molded inside of the helmet shell.

DETAILED DESCRIPTION OF THE INVENTION

FIG. 1A shows an outer perspective view of a helmet shell where the 6 light emitting diodes (LED) arrangements are embedded inside of the helmet shell. FIGS. 1B and 1C shows these 6 LED are systematically arranged around the upper facial part of the shell, four 6 LED are in the back of the shell and three 6 LED are at the chin bar of the shell. FIG. 1D shows the inside perspective view of the inner components of the shell. The battery pack holder's form is of a nine volt batter and has two 1.5 volt double A batteries in it and the battery pack holder is located in the 2 chamber, housing of the batter which is located at the middle/back area of the shell and near the bottom of the shell. The 3 on/off switch is molded at the back of the helmet and it is of the push button style. When the 3 on/off switch is pushed to the on position then an electrical current protrudes to the 1 copper trace/lead trace which is then passed to the 5 three resistors. The 5 three resistors are used as a protection for the batteries by not allowing a great amount of usage to be supplied by the batteries. The 5 three resistors are systemically arranged inside of the shell with 5 one resistor at the positive side of the 2 battery chamber. The negative side of the 2 battery chamber is in the wall side of the 1 copper trace which keeps the batteries from overloading and over heating the light system. The opposite end of the 5 resistor is hooked onto the power line of the 3 switch. The other 5 two resistors are connected to the 6 LED bulbs which enables the 6 LED to produce light. The 6 LED can be replaced by 7 fire wires and then-performance is the exact same results as the 6 LED. The covering of the 6 LED is a 8 lens. These 8 lens are waterproof, located on the outside of the shell and will have various colors.

It should be understood by all involved that some changes and variations can be made in the lighting system of this helmet-shell invention without voiding the scope of the original invention as defined by the claims. 

1. An electrical motorcycle helmet shell, comprising a pull tap nine volt two double battery holder system, that provides an electrical current to a LED/Fire wire wireless/copper trace/ circuit board line printed helmet shell.
 2. An electrical distribution motorcycle helmet shell system configured that provides an electrical surge to LED (light emitting diodes or fire wire lights that is molded into shell structure.)
 3. An electrical motorcycle helmet shell as in claim 1 also comprises. Flat cooper tracks/circuit board/ lean printed lines in which LED/Fire wire receives an electrical current to light outer surface of motorcycle helmet shell.
 4. An electrical motorcycle helmet shell as in claim one further comprises a push on and off switch that allows electrical current that passes through helmet shell to LED embedded light emitting diodes or fire wall lighting.
 5. An electrical motorcycle helmet shell, as in claim 1 also comprises outer water resisting LED or fire wire covers made out of fiber optic or plastic substance.
 6. An electrical motorcycle helmet shell as in claim 1 also comprises many 1 ohm resistors that may vary in size that keeps electrical motorcycle helmet shell system down on battery usage. LED or fire wire lighting have a life shine of 36 hours with normal double batteries and a life shine about 36×7 with lithium batteries with resistors in the system.
 7. A electrical motorcycle helmet shell as in claim 1 also comprises white LED in color that when fiber optic or plastic water proof covers are applied, the colors are change depending of shade of plastic applied from the outside of the shell.
 8. An electrical motorcycle helmet shell as in claim 1 also comprises a fire wire/y-wire that is also lit by same battery shell system. One y-wire or fire wire is also embedded into shell of the helmet, and can also be designed into shell with different shapes or sizes to form light designs, names, lit logos or characters. 